Radon concentration values in the field: Correlation with underlying geology

In epidemiological and ecological studies of radon as a health hazard in a given area or region, it is becoming widely recognized that it is necessary to establish the significance of correlations, if any, between the incidence of diseases (e.g. lung cancer or leukaemias) and local radon concentrati...

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Veröffentlicht in:	Radiation measurements 1999-06, Vol.31 (1), p.271-276
1. Verfasser:	Durrani, S.A.
Format:	Artikel
Sprache:	eng
Schlagworte:	correlation Diseases Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Geochronology Geology Geostatistics Health hazards Isotope geochemistry. Geochronology lithology Pollution, environment geology Radioactivity measurement radon affected areas radon concentration values sampling interval Soils transect unbalanced nested sampling variance
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container_title	Radiation measurements
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creator	Durrani, S.A.
description	In epidemiological and ecological studies of radon as a health hazard in a given area or region, it is becoming widely recognized that it is necessary to establish the significance of correlations, if any, between the incidence of diseases (e.g. lung cancer or leukaemias) and local radon concentration values. Measurements of soil-radon concentration levels in the field, especially under geostatistically controlled conditions, have underscored the highly erratic nature of radon emission on a scale often of only a few metres. It would appear that, while underlying geology does determine the longer scale of variation in soil-radon, many localized parameters, e.g. fissures, moisture content, thickness of overburden, etc., make it imperative that detailed in-situ measurements of radon emission are made before a reliable correlation can be established between, say, leukaemia clusters and radon concentration levels. A broad survey of measurement methods and reported results, examined in the above context, is presented and conclusions drawn in this paper.
doi_str_mv	10.1016/S1350-4487(99)00105-5
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Measurements of soil-radon concentration levels in the field, especially under geostatistically controlled conditions, have underscored the highly erratic nature of radon emission on a scale often of only a few metres. It would appear that, while underlying geology does determine the longer scale of variation in soil-radon, many localized parameters, e.g. fissures, moisture content, thickness of overburden, etc., make it imperative that detailed in-situ measurements of radon emission are made before a reliable correlation can be established between, say, leukaemia clusters and radon concentration levels. 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subjects	correlation Diseases Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Geochronology Geology Geostatistics Health hazards Isotope geochemistry. Geochronology lithology Pollution, environment geology Radioactivity measurement radon affected areas radon concentration values sampling interval Soils transect unbalanced nested sampling variance
title	Radon concentration values in the field: Correlation with underlying geology
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